1. 1 SRI International Bioinformatics The Pathway Tools Software and BioCyc Database Collection Peter D. Karp, Ph.D. Bioinformatics Research Group SRI International pkarp@ai.sri.com http://www.ai.sri.com/pkarp/talks/ BioCyc.org EcoCyc.org, MetaCyc.org, HumanCyc.org

2. 2 SRI International Bioinformatics Use Cases for Pathway Tools and BioCyc Development of organism-specific DBs (model- organism DBs) that span many biological datatypes Web publishing of those DBs with a powerful set of query and visualization tools Computational inferences of metabolic pathways, pathway hole fillers, operons, transport reactions Visual tools for analysis of omics data Tools for analysis of biological networks Comparative analysis tools Metabolic engineering BioCyc is a Web portal for genome and pathway information

3. 3 SRI International Bioinformatics BioCyc Collection of 673 Pathway/Genome Databases Pathway/Genome Database (PGDB) – combines information about l Pathways, reactions, substrates l Enzymes, transporters l Genes, replicons l Transcription factors/sites, promoters, operons Tier 1: Literature-Derived PGDBs l MetaCyc l EcoCyc -- Escherichia coli K-12 Tier 2: Computationally-derived DBs, Some Curation -- 28 PGDBs l HumanCyc l Mycobacterium tuberculosis Tier 3: Computationally-derived DBs, No Curation -- 643 DBs

4. 4 SRI International Bioinformatics Pathway Tools Software PathoLogic l Predicts operons, metabolic network, pathway hole fillers, from genome l Computational creation of new Pathway/Genome Databases Pathway/Genome Editors l Distributed curation of PGDBs l Distributed object database system, interactive editing tools Pathway/Genome Navigator l WWW publishing of PGDBs l Querying, visualization of pathways, chromosomes, operons l Analysis operations u Pathway visualization of gene-expression data u Global comparisons of metabolic networks Briefings in Bioinformatics 11:40-79 2010

5. 5 SRI International Bioinformatics Obtaining a PGDB for Organism of Interest Find existing curated PGDB Find existing PGDB in BioCyc Create your own Curated pathway DBs now exist for most biomedical model organisms

6. 6 SRI International Bioinformatics Pathway Tools Software: PGDBs Created Outside SRI 2,100+ licensees: 180 groups applying software to 1,600 organisms Saccharomyces cerevisiae, SGD project, Stanford University l 135 pathways / 565 publications Candida albicans, CGD project, Stanford University dictyBase, Northwestern University Mouse, MGD, Jackson Laboratory Drosophila, FlyBase, Harvard University Under development: l C. elegans, WormBase Arabidopsis thaliana, TAIR, Carnegie Institution of Washington l 288 pathways / 2282 publications PlantCyc, Carnegie Institution of Washington Six Solanaceae species, Cornell University GrameneDB, Cold Spring Harbor Laboratory Medicago truncatula, Samuel Roberts Noble Foundation

7. 7 SRI International Bioinformatics MetaCyc : Metabolic Encyclopedia Describe a representative sample of every experimentally determined metabolic pathway Describe properties of metabolic enzymes Literature-based DB with extensive references and commentary MetaCyc now assigns more than twice as many reactions to pathways as does KEGG Nucleic Acids Research 2010

8. 8 SRI International Bioinformatics MetaCyc Data -- Version 14.0 Pathways 1,471 Reactions 8,409 Enzymes 6,198 Small Molecules 8,572 Organisms1,861 Citations 22,459

9. 9 SRI International Bioinformatics Taxonomic Distribution of MetaCyc Pathways – version 13.1 Bacteria883 Green Plants 607 Fungi 199 Mammals 159 Archaea112

10. 10 SRI International Bioinformatics Pathway Tools Survey Publication Karp et al, Briefings in Bioinformatics 2010 11:40-79.

11. 11 SRI International Bioinformatics Signaling Pathway Editor Signaling pathways use different visual conventions than metabolic pathways Look and feel based of our tool based on CellDesigner, SBGN Manual layout l Can’t yet be included in Cellular Overview Diagram

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14. 14 SRI International Bioinformatics Improved Web Overviews Implemented using OpenLayers Zoomable, draggable, searchable, paintable Cellular Overview l Highlight compounds, reactions, enzymes, genes by name, substring, with autocomplete l Highlight genes from file l Superimpose omics data Regulatory Overview l Draw connections between a gene and its regulators, regulatees l Show full diagram or only highlighted genes

15. 15 SRI International Bioinformatics Cellular Overview

16. 16 SRI International Bioinformatics Cellular Overview, zoomed-in view

17. 17 SRI International Bioinformatics Regulatory Overview

18. 18 SRI International Bioinformatics Omics Popups Desktop Pathway Tools only Can show omics popups for a gene, reaction, pathway Use also in Cellular Overview Choose from 3 styles: heatmap, bar graph, plot

19. 19 SRI International Bioinformatics Omics Data Graphing

20. 20 SRI International Bioinformatics Pathway Tools Captures All Bacterial Regulation Mechanisms Regulation of transcription l By transcription factors l By attenuation Regulation of translation l By proteins and small RNAs Regulation of protein activity l By covalent modification (e.g., phosphorylation) l By non-covalent modification (e.g., allosteric inhibitors) Support: Schema, editing tools, display tools

21. 21 SRI International Bioinformatics Regulatory Summary Diagrams

22. 22 SRI International Bioinformatics Other Recent Enhancements Phases I and II of upgrade to Pathway Tools Web mode l Phase III still to come Ability to customize pathway displays via Web site l Pathway  Customize

23. 23 SRI International Bioinformatics Reachability Analysis of Metabolic Networks Given: l A PGDB for an organism l A set of initial metabolites Infer: l What set of products can be synthesized by the small-molecule metabolism of the organism Motivations: l Quality control for PGDBs u Verify that a known growth medium yields known essential compounds l Experiment with other growth media l Experiment with reaction knock-outs Limitations l Cannot properly handle compounds required for their own synthesis l Nutrients needed for reachability may be a superset of those required for growth Romero and Karp, Pacific Symposium on Biocomputing, 2001

24. 24 SRI International Bioinformatics Algorithm: Forward Propagation Through Production System Each reaction becomes a production rule Each of the 21 metabolites in the nutrient set becomes an axiom Nutrient set Metabolite pool “Fire” reactions Transport Products Reactants PGDB reaction set A + B  C

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26. 26 SRI International Bioinformatics Coming Soon BioCyc / EcoCyc / HumanCyc will support Web services for data retrieval iPhone app for BioCyc / EcoCyc / HumanCyc and other PGDBs

27. 27 SRI International Bioinformatics Acknowledgements SRI l Suzanne Paley, Ron Caspi, Ingrid Keseler, Carol Fulcher, Markus Krummenacker, Alex Shearer, Tomer Altman, Joe Dale, Fred Gilham, Pallavi Kaipa EcoCyc Collaborators l Julio Collado-Vides, Robert Gunsalus, Ian Paulsen MetaCyc Collaborators l Sue Rhee, Peifen Zhang, Kate Dreher l Lukas Mueller, Anuradha Pujar Funding sources: l NIH National Institute of General Medical Sciences l NIH National Center for Research Resources BioCyc.org Learn more from BioCyc webinars: biocyc.org/webinar.shtml